基于智能手机的便携式角膜地形检测装置设计

      Design of a Portable Corneal Topography Detection Device Based on Smartphone

      • 摘要:
        目的 针对传统角膜地形图仪体积大、成本高、移动性差的问题,设计一款适配智能手机的便携式角膜地形检测装置,为角膜疾病提供低成本、便捷化的大规模初筛工具。
        方法 以小锥形Placido盘为核心光学元件,通过Matlab优化圆环分布并经OptisWorks光学仿真验证,采用激光打印与PMMA支撑结构实现Placido盘小型化加工。基于SolidWorks建模并采用3D打印技术制作装置外壳。再设计红色发光二极管(light emitting diode,LED)照明系统,沿Placido锥角度平行排布,通过智能手机供电,实现装置与智能手机的精准适配。
        结果 亚克力锥筒关键尺寸加工误差较小,均小于0.2 mm。LED照明系统辐照度分布均匀,光生物安全性验证显示均满足无危险类标准。对角膜地形检测的标准差为0.034,符合规范。
        结论 便携式角膜地形检测装置符合测量标准,实现了小型化、低成本与高适配性,照明均匀且安全可靠,为便携式角膜地形检测装置的实用化奠定了基础。

         

        Abstract:
        Objective Aiming at the problems of large size, high cost, and poor mobility of traditional corneal topographers, a portable corneal topography detection device compatible with smartphones was designed to provide a low-cost and convenient tool for large-scale preliminary screening of corneal diseases.
        Methods A small conical Placido disk was used as the core optical component. Its ring distribution was optimized by Matlab and verified by OptisWorks optical simulation, and the miniaturized processing of the Placido disk was realized by laser printing and a PMMA support structure. The device shell was modeled based on SolidWorks and fabricated by 3D printing technology. A redLEDlighting system was then designed, arranged in parallel along the angle of the Placido cone and powered by a smartphone to achieve precise adaptation between the device and the smartphone.
        Results The processing errors of the key dimensions of the acrylic cone were small, all less than 0.2mm. TheLEDlighting system had a uniform irradiance distribution, and the photobiological safety verification showed that it met the non-hazardous standards. The standard deviation for corneal topography detection was 0.034, which complied with the specifications.
        Conclusion The portable corneal topography detection device meets the measurement standards, achieves miniaturization, low cost, and high adaptability, with uniform and safe lighting, laying a foundation for the practical application of portable corneal topography detection devices.

         

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